Difficult to detect puncture holes. Can cause or trigger latex allergies. High dermatitis potential. Highly flexible and dexterous. Butyl Rubber. Good for ketones and esters. Only available as re-usable.
Poor touch sensitivity. Strong against aggressive chemicals. Thick and not flexible. Multiple negative environmental issues. Manufacturing process creates toxic chemicals. Does not bio-degrade. If not properly disposed of can leach chemicals into the environment. Plasticisers in glove may contaminate solvents. Very cheap. Predominantly manufactured in China. Polyvinyl Alcohol PVA. Good for aromatic and chlorinated solvents.
Poor for water-based solutions dissolves in water. Avoid: Contact with water or water-based solutions, water solubles. Can be cleaned with solvents. Thick and not very flexible. Good for acids, bases, alcohols, fuels, peroxides, hydrocarbons and phenols. Poor for halogenated and aromatic hydrocarbons. EN Standards and how to learn more. When gloves are accidentally exposed to slight overspray, spills or splashes, it is considered incidental contact.
If you think you will have incidental contact with chemical or hazardous substances choose a disposable glove that has some chemical resistance and then dispose of it immediately after contact with the chemical. If you or your staff will be working with highly contaminated or hazardous materials, high temperatures, or will be continuously submerging hands in a chemical solution then the safest glove option will be reusable gloves.
Reusable gloves are thicker and provide greater protection in extended contact situations. Always check with the glove manufacturer to identify the chemicals which the gloves are tolerant. The length of the gloves is the measurement from the fingertip to the wrist opening. Longer gloves are necessary when staff is working in areas of increased risk such as submerging hands into a solution.
Certain types of disposable gloves are available as powdered or powder-free. Powdered gloves were popular because they were easier to put on and were more resistant to tears than powder-free gloves.
However they are more messy and have also been proven to spread pathogens. The use of powdered gloves has declined in other industries as well. Now, the most common gloves are powder-free. Powder-free gloves are finished in one of two ways: chlorination or polymer coating. With chlorination, the gloves are washed in a chlorine gas or hypochlorite and hydrochloric acid solution and then rinsed. Chlorinated gloves are easier to put on than those coated with polymers.
Each glove substrate has its own shelf life, but shelf life will ultimately depend on how and where the glove is stored. The best way to help ensure you get the most life out of your disposable gloves is to ensure they are stored in a cool, dark area.
Gloves which are stored improperly or are used after their intended shelf life will have reduced performance such as increased risk of tearing. Whether you need protection from sharp objects, punctures, bodily fluids, OPIMs other potentially infectious materials , or caustic chemicals, you need the right glove to keep you and your staff protected.
Each type of glove has its own specifications as well as pros and cons. When selecting the right glove, there are a lot of considerations to keep in mind. Choosing the right one for your industry or application is critical. It is important to note that OSHA requires gloves to fit all employees, meaning you will likely have to purchase a variety of glove sizes.
This guards against the long term effects of repetitive vibration which can lead to debilitating injuries such as carpal tunnel syndrome. Mechanics-style gloves are fashionable-looking gloves with excellent comfort, warmth and flexibility. Leather, with its natural properties of durability, heat resistance and insulation, is the traditional material for welders gloves, as well as aprons, jackets etc.
Most welders gloves are made from suede split leather—a proven ideal material to protect hands from heat, UV arc rays, molten metal spatter, flying sparks and flame-ups. The TIG welding process which utilises a non-consumable electrode produces lower heat and fewer sparks compared to other types of welding.
TIG welding gloves can therefore be thinner than other welding gloves since dexterity is more important than heat resistance. The fingers of TIG gloves are usually made from calf or goat skin. Most welding gloves incorporate Kevlar stitching. The exceptional heat resistance of Kevlar means the stitching stays strong even at high temperatures. Leather welders gloves protect hands from heat, UV arc rays, molten metal spatter, flying sparks and flame-ups.
They are ideal for light manufacturing and engineering, component handling, assembly work, fruit picking and packhouses. These latter use a scale- or flake-like structure to deflect penetration from needles, shards, and other significant puncture risk exposures. Many people have been adversely affected by vibration or impact to the hand.
In fact, hand-arm vibration syndrome HAVS is quickly becoming a topic of great interest to safety professionals. Thankfully, there are gloves specifically designed to mitigate this risk on the market. They work absorbing the energy from an impact and reducing vibration to the hands. Impact resistant or vibration resistant gloves may be the hand protection you need if you are engaged in a task where energy may be transferred to your hands, or you will be receiving repeated impact or vibration for an extended period of time.
Vibration-resistant gloves are highly valued in fabrication work, where workers might use a grinder for an entire shift, or in the construction and automotive industries, where jackhammers and other pneumatic tools might be used for extended periods of time. Deciding which chemical- or liquid-resistant glove to employ is no small undertaking. The importance of industrial hygiene is often underestimated and absorption of chemicals through the skin can lead to serious long-term or immediate health effects.
Referring to a product's MSDS will help you identify the proper level of protection required to keep you safe while handling that chemical material. These are typically used when workers will be in extended contact with a substance. They also offer resistance to water and steam permeation. Intended for incidental contact situations. Suitable for biological hazards and water-based liquids. Nitrile gloves are good versatile, general-use gloves.
They can be intended for incidental contact such as disposable exam gloves or supplied in a thicker format for situations where extended contact is intended. So, as you can see from this compilation of hand protection, we have many options to neutralize ergonomic, industrial hygiene, or immediate safety hazards.
The first step in determining which type of hand protection is right for you is to identify the hazards and the corresponding hand protection measures. Full hand protection may even require using more than one type of glove throughout the day. Find out How to Conduct a Risk Assessment. The wide array of options can make selecting safety gloves intimidating.
But with this list, you will be well equipped to make the right choice.
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